package io.sentry.android.core

import android.content.ContentProvider
import androidx.test.ext.junit.runners.AndroidJUnit4
import io.sentry.Hint
import io.sentry.IScopes
import io.sentry.MeasurementUnit
import io.sentry.SentryTracer
import io.sentry.SpanContext
import io.sentry.SpanDataConvention
import io.sentry.SpanId
import io.sentry.SpanStatus
import io.sentry.TracesSamplingDecision
import io.sentry.TransactionContext
import io.sentry.android.core.ActivityLifecycleIntegration.APP_START_COLD
import io.sentry.android.core.ActivityLifecycleIntegration.APP_START_WARM
import io.sentry.android.core.ActivityLifecycleIntegration.UI_LOAD_OP
import io.sentry.android.core.performance.ActivityLifecycleTimeSpan
import io.sentry.android.core.performance.AppStartMetrics
import io.sentry.android.core.performance.AppStartMetrics.AppStartType
import io.sentry.protocol.MeasurementValue
import io.sentry.protocol.SentryId
import io.sentry.protocol.SentrySpan
import io.sentry.protocol.SentryTransaction
import java.util.concurrent.TimeUnit
import kotlin.test.BeforeTest
import kotlin.test.Test
import kotlin.test.assertEquals
import kotlin.test.assertFalse
import kotlin.test.assertNull
import kotlin.test.assertTrue
import org.junit.runner.RunWith
import org.mockito.kotlin.any
import org.mockito.kotlin.mock
import org.mockito.kotlin.whenever

@RunWith(AndroidJUnit4::class)
class PerformanceAndroidEventProcessorTest {
  private class Fixture {
    val options = SentryAndroidOptions()

    val scopes = mock<IScopes>()
    val context = TransactionContext("name", "op", TracesSamplingDecision(true))
    lateinit var tracer: SentryTracer
    val activityFramesTracker = mock<ActivityFramesTracker>()

    fun getSut(
      tracesSampleRate: Double? = 1.0,
      enablePerformanceV2: Boolean = false,
    ): PerformanceAndroidEventProcessor {
      AppStartMetrics.getInstance().isAppLaunchedInForeground = true
      options.tracesSampleRate = tracesSampleRate
      options.isEnablePerformanceV2 = enablePerformanceV2
      whenever(scopes.options).thenReturn(options)
      tracer = SentryTracer(context, scopes)
      return PerformanceAndroidEventProcessor(options, activityFramesTracker)
    }
  }

  private val fixture = Fixture()

  private fun createAppStartSpan(traceId: SentryId, coldStart: Boolean = true) =
    SentrySpan(
        0.0,
        1.0,
        traceId,
        SpanId(),
        null,
        if (coldStart) APP_START_COLD else APP_START_WARM,
        "App Start",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )
      .also {
        AppStartMetrics.getInstance().onActivityCreated(mock(), if (coldStart) null else mock())
      }

  @BeforeTest
  fun `reset instance`() {
    AppStartMetrics.getInstance().clear()
  }

  @Test
  fun `add cold start measurement`() {
    val sut = fixture.getSut()

    var tr = getTransaction(AppStartType.COLD)
    setAppStart(fixture.options)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.containsKey(MeasurementValue.KEY_APP_START_COLD))
  }

  @Test
  fun `add cold start measurement for performance-v2`() {
    val sut = fixture.getSut(enablePerformanceV2 = true)

    var tr = getTransaction(AppStartType.COLD)
    setAppStart(fixture.options)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.containsKey(MeasurementValue.KEY_APP_START_COLD))
  }

  @Test
  fun `add warm start measurement`() {
    val sut = fixture.getSut()

    var tr = getTransaction(AppStartType.WARM)
    setAppStart(fixture.options, false)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.containsKey(MeasurementValue.KEY_APP_START_WARM))
  }

  @Test
  fun `set app cold start unit measurement`() {
    val sut = fixture.getSut()

    var tr = getTransaction(AppStartType.COLD)
    setAppStart(fixture.options)

    tr = sut.process(tr, Hint())

    val measurement = tr.measurements[MeasurementValue.KEY_APP_START_COLD]
    assertEquals("millisecond", measurement?.unit)
  }

  @Test
  fun `do not add app start metric twice`() {
    val sut = fixture.getSut()

    var tr1 = getTransaction(AppStartType.COLD)
    setAppStart(fixture.options, false)

    tr1 = sut.process(tr1, Hint())

    var tr2 = getTransaction(AppStartType.UNKNOWN)
    tr2 = sut.process(tr2, Hint())

    assertTrue(tr1.measurements.containsKey(MeasurementValue.KEY_APP_START_WARM))
    assertTrue(tr2.measurements.isEmpty())
  }

  @Test
  fun `do not add app start metric if its not ready`() {
    val sut = fixture.getSut()

    var tr = getTransaction(AppStartType.UNKNOWN)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.isEmpty())
  }

  @Test
  fun `do not add app start metric if performance is disabled`() {
    val sut = fixture.getSut(tracesSampleRate = null)

    var tr = getTransaction(AppStartType.COLD)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.isEmpty())
  }

  @Test
  fun `do not add app start metric if no app_start span`() {
    val sut = fixture.getSut(tracesSampleRate = null)

    var tr = getTransaction(AppStartType.UNKNOWN)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.isEmpty())
  }

  @Test
  fun `do not add slow and frozen frames if not auto transaction`() {
    val sut = fixture.getSut()
    var tr = getTransaction(AppStartType.UNKNOWN)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.isEmpty())
  }

  @Test
  fun `do not add slow and frozen frames if tracing is disabled`() {
    val sut = fixture.getSut(null)
    var tr = getTransaction(AppStartType.UNKNOWN)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.isEmpty())
  }

  @Test
  fun `add slow and frozen frames if auto transaction`() {
    val sut = fixture.getSut()
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    val metrics =
      mapOf(
        MeasurementValue.KEY_FRAMES_TOTAL to
          MeasurementValue(1f, MeasurementUnit.Duration.MILLISECOND.apiName())
      )
    whenever(fixture.activityFramesTracker.takeMetrics(any())).thenReturn(metrics)

    tr = sut.process(tr, Hint())

    assertTrue(tr.measurements.containsKey(MeasurementValue.KEY_FRAMES_TOTAL))
  }

  @Test
  fun `adds app start metrics to app start txn`() {
    // given some app start metrics
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.isAppLaunchedInForeground = true
    appStartMetrics.appStartType = AppStartType.COLD
    appStartMetrics.appStartTimeSpan.setStartedAt(123)
    appStartMetrics.appStartTimeSpan.setStoppedAt(456)

    val contentProvider = mock<ContentProvider>()
    AppStartMetrics.onContentProviderCreate(contentProvider)
    AppStartMetrics.onContentProviderPostCreate(contentProvider)

    appStartMetrics.applicationOnCreateTimeSpan.apply {
      setStartedAt(10)
      setStoppedAt(42)
    }

    val activityTimeSpan = ActivityLifecycleTimeSpan()
    activityTimeSpan.onCreate.description = "MainActivity.onCreate"
    activityTimeSpan.onStart.description = "MainActivity.onStart"

    activityTimeSpan.onCreate.setStartedAt(200)
    activityTimeSpan.onStart.setStartedAt(220)
    activityTimeSpan.onStart.setStoppedAt(240)
    activityTimeSpan.onCreate.setStoppedAt(260)
    appStartMetrics.addActivityLifecycleTimeSpans(activityTimeSpan)

    // when an activity transaction is created
    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    // and it contains an app.start.cold span
    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId)
    tr.spans.add(appStartSpan)

    // then the app start metrics should be attached
    tr = sut.process(tr, Hint())

    assertTrue(tr.spans.any { "process.load" == it.op && appStartSpan.spanId == it.parentSpanId })

    assertTrue(
      tr.spans.any { "contentprovider.load" == it.op && appStartSpan.spanId == it.parentSpanId }
    )

    assertTrue(tr.spans.any { "application.load" == it.op })
  }

  @Test
  fun `does not add app start metrics to app warm start txn`() {
    // given some app start metrics
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.appStartType = AppStartType.WARM
    appStartMetrics.appStartTimeSpan.setStartedAt(123)
    appStartMetrics.appStartTimeSpan.setStoppedAt(456)

    val contentProvider = mock<ContentProvider>()
    AppStartMetrics.onContentProviderCreate(contentProvider)
    AppStartMetrics.onContentProviderPostCreate(contentProvider)

    appStartMetrics.applicationOnCreateTimeSpan.apply {
      setStartedAt(10)
      setStoppedAt(42)
    }

    val activityTimeSpan = ActivityLifecycleTimeSpan()
    activityTimeSpan.onCreate.description = "MainActivity.onCreate"
    activityTimeSpan.onStart.description = "MainActivity.onStart"

    activityTimeSpan.onCreate.setStartedAt(200)
    activityTimeSpan.onStart.setStartedAt(220)
    activityTimeSpan.onStart.setStoppedAt(240)
    activityTimeSpan.onCreate.setStoppedAt(260)
    appStartMetrics.addActivityLifecycleTimeSpans(activityTimeSpan)

    // when an activity transaction is created
    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    // and it contains an app.start.warm span
    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId, false)
    tr.spans.add(appStartSpan)

    // then the app start metrics should be attached
    tr = sut.process(tr, Hint())

    // process init, content provider and application span should not be attached
    assertFalse(tr.spans.any { "process.load" == it.op })
    assertFalse(tr.spans.any { "contentprovider.load" == it.op })
    assertFalse(tr.spans.any { "application.load" == it.op })
  }

  @Test
  fun `when app launched from background, app start spans are dropped`() {
    // given some app start metrics
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.appStartType = AppStartType.COLD
    appStartMetrics.appStartTimeSpan.setStartedAt(123)
    appStartMetrics.appStartTimeSpan.setStoppedAt(456)

    val contentProvider = mock<ContentProvider>()
    AppStartMetrics.onContentProviderCreate(contentProvider)
    AppStartMetrics.onContentProviderPostCreate(contentProvider)

    appStartMetrics.applicationOnCreateTimeSpan.apply {
      setStartedAt(10)
      setStoppedAt(42)
    }

    val activityTimeSpan = ActivityLifecycleTimeSpan()
    activityTimeSpan.onCreate.description = "MainActivity.onCreate"
    activityTimeSpan.onStart.description = "MainActivity.onStart"

    activityTimeSpan.onCreate.setStartedAt(200)
    activityTimeSpan.onStart.setStartedAt(220)
    activityTimeSpan.onStart.setStoppedAt(240)
    activityTimeSpan.onCreate.setStoppedAt(260)
    appStartMetrics.addActivityLifecycleTimeSpans(activityTimeSpan)

    // when an activity transaction is created
    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    // and it contains an app.start.cold span
    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId)
    tr.spans.add(appStartSpan)

    // but app is launched in background
    AppStartMetrics.getInstance().isAppLaunchedInForeground = false

    // then the app start metrics are not attached
    tr = sut.process(tr, Hint())

    assertFalse(
      tr.spans.any {
        "process.load" == it.op ||
          "contentprovider.load" == it.op ||
          "application.load" == it.op ||
          "activity.load" == it.op
      }
    )
  }

  @Test
  fun `when app start takes more than 1 minute, app start spans are dropped`() {
    // given some app start metrics
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.appStartType = AppStartType.COLD
    appStartMetrics.appStartTimeSpan.setStartedAt(123)
    // and app start takes more than 1 minute
    appStartMetrics.appStartTimeSpan.setStoppedAt(TimeUnit.MINUTES.toMillis(1) + 124)

    val contentProvider = mock<ContentProvider>()
    AppStartMetrics.onContentProviderCreate(contentProvider)
    AppStartMetrics.onContentProviderPostCreate(contentProvider)

    appStartMetrics.applicationOnCreateTimeSpan.apply {
      setStartedAt(10)
      setStoppedAt(42)
    }

    val activityTimeSpan = ActivityLifecycleTimeSpan()
    activityTimeSpan.onCreate.description = "MainActivity.onCreate"
    activityTimeSpan.onStart.description = "MainActivity.onStart"

    activityTimeSpan.onCreate.setStartedAt(200)
    activityTimeSpan.onStart.setStartedAt(220)
    activityTimeSpan.onStart.setStoppedAt(240)
    activityTimeSpan.onCreate.setStoppedAt(260)
    appStartMetrics.addActivityLifecycleTimeSpans(activityTimeSpan)

    // when an activity transaction is created
    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    // and it contains an app.start.cold span
    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId)
    tr.spans.add(appStartSpan)

    // then the app start metrics are not attached
    tr = sut.process(tr, Hint())

    assertFalse(
      tr.spans.any {
        "process.load" == it.op ||
          "contentprovider.load" == it.op ||
          "application.load" == it.op ||
          "activity.load" == it.op
      }
    )
  }

  @Test
  fun `does not add app start metrics to app start txn when it is not a cold start`() {
    // given some WARM app start metrics
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.appStartType = AppStartType.WARM
    appStartMetrics.appStartTimeSpan.setStartedAt(123)
    appStartMetrics.appStartTimeSpan.setStoppedAt(456)
    appStartMetrics.applicationOnCreateTimeSpan.apply {
      setStartedAt(10)
      setStoppedAt(42)
    }
    // when an activity transaction is created
    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    // then the app start metrics should not be attached
    tr = sut.process(tr, Hint())

    assertFalse(tr.spans.any { "application.load" == it.op })
  }

  @Test
  fun `does not add app start metrics more than once`() {
    // given some cold app start metrics
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.appStartType = AppStartType.COLD
    appStartMetrics.appStartTimeSpan.setStartedAt(123)
    appStartMetrics.appStartTimeSpan.setStoppedAt(456)

    appStartMetrics.applicationOnCreateTimeSpan.apply {
      setStartedAt(10)
      setStoppedAt(42)
    }

    // when the first activity transaction is created
    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)
    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId)
    tr.spans.add(appStartSpan)

    assertTrue(appStartMetrics.shouldSendStartMeasurements())
    // then the app start metrics should be attached
    tr = sut.process(tr, Hint())
    assertFalse(appStartMetrics.shouldSendStartMeasurements())

    assertTrue(tr.spans.any { "application.load" == it.op })

    // but not on the second activity transaction
    var tr2 = SentryTransaction(tracer)
    tr2.spans.add(appStartSpan)
    tr2 = sut.process(tr2, Hint())
    assertFalse(tr2.spans.any { "application.load" == it.op })
  }

  @Test
  fun `does not add process init span if it happened too early`() {
    // given some cold app start metrics
    // where class loaded happened way before app start
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.appStartType = AppStartType.COLD
    appStartMetrics.appStartTimeSpan.setStartedAt(11001)
    appStartMetrics.appStartTimeSpan.setStoppedAt(12000)
    appStartMetrics.classLoadedUptimeMs = 1000

    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)
    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId)
    tr.spans.add(appStartSpan)

    // when the processor attaches the app start spans
    tr = sut.process(tr, Hint())

    // process load should not be included
    assertFalse(tr.spans.any { "process.load" == it.op })
  }

  @Test
  fun `adds main thread name and id to app start spans`() {
    // given some cold app start metrics
    // where class loaded happened way before app start
    val appStartMetrics = AppStartMetrics.getInstance()
    appStartMetrics.appStartType = AppStartType.COLD
    appStartMetrics.appStartTimeSpan.setStartedAt(1)
    appStartMetrics.appStartTimeSpan.setStoppedAt(3000)

    AppStartMetrics.getInstance().applicationOnCreateTimeSpan.apply {
      setStartedAt(1000)
      description = "com.example.App.onCreate"
      setStoppedAt(2000)
    }

    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)
    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId)
    tr.spans.add(appStartSpan)

    // when the processor attaches the app start spans
    tr = sut.process(tr, Hint())

    // thread name and id should be set
    assertTrue {
      tr.spans.any {
        it.op == "process.load" &&
          it.data!!["thread.name"] == "main" &&
          it.data!!.containsKey("thread.id")
      }
    }

    assertTrue {
      tr.spans.any {
        it.op == "application.load" &&
          it.data!!["thread.name"] == "main" &&
          it.data!!.containsKey("thread.id")
      }
    }
  }

  @Test
  fun `does not set start_type field for txns without app start span`() {
    // given some ui.load txn
    setAppStart(fixture.options, coldStart = true)

    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    // when it contains no app start span and is processed
    tr = sut.process(tr, Hint())

    // start_type should not be set
    assertNull(tr.contexts.app?.startType)
  }

  @Test
  fun `sets start_type field for app context`() {
    // given some cold app start
    setAppStart(fixture.options, coldStart = true)

    val sut = fixture.getSut(enablePerformanceV2 = true)
    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    var tr = SentryTransaction(tracer)

    val appStartSpan = createAppStartSpan(tr.contexts.trace!!.traceId)
    tr.spans.add(appStartSpan)

    // when the processor attaches the app start spans
    tr = sut.process(tr, Hint())

    // start_type should be set as well
    assertEquals("cold", tr.contexts.app!!.startType)
  }

  @Test
  fun `adds ttid and ttfd contributing span data`() {
    val sut = fixture.getSut()

    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    val tr = SentryTransaction(tracer)

    // given a ttid from 0.0 -> 1.0
    //   and a ttfd from 0.0 -> 2.0
    val ttid =
      SentrySpan(
        0.0,
        1.0,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        ActivityLifecycleIntegration.TTID_OP,
        "App Start",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )

    val ttfd =
      SentrySpan(
        0.0,
        2.0,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        ActivityLifecycleIntegration.TTFD_OP,
        "App Start",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )
    tr.spans.add(ttid)
    tr.spans.add(ttfd)

    // and 3 spans
    // one from 0.0 -> 0.5
    val ttidContrib =
      SentrySpan(
        0.0,
        0.5,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        "example.op",
        "",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )

    // and another from 1.5 -> 3.5
    val ttfdContrib =
      SentrySpan(
        1.5,
        3.5,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        "example.op",
        "",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )

    // and another from 2.1 -> 2.2
    val outsideSpan =
      SentrySpan(
        2.1,
        2.2,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        "example.op",
        "",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        mutableMapOf<String, Any>("tag" to "value"),
      )

    tr.spans.add(ttidContrib)
    tr.spans.add(ttfdContrib)

    // when the processor processes the txn
    sut.process(tr, Hint())

    // then the ttid/ttfd spans themselves should have no flags set
    assertNull(ttid.data?.get(SpanDataConvention.CONTRIBUTES_TTID))
    assertNull(ttid.data?.get(SpanDataConvention.CONTRIBUTES_TTFD))

    assertNull(ttfd.data?.get(SpanDataConvention.CONTRIBUTES_TTID))
    assertNull(ttfd.data?.get(SpanDataConvention.CONTRIBUTES_TTFD))

    // then the first span should have ttid and ttfd contributing flags
    assertTrue(ttidContrib.data?.get(SpanDataConvention.CONTRIBUTES_TTID) == true)
    assertTrue(ttidContrib.data?.get(SpanDataConvention.CONTRIBUTES_TTFD) == true)

    // and the second one should contribute to ttfd only
    assertNull(ttfdContrib.data?.get(SpanDataConvention.CONTRIBUTES_TTID))
    assertTrue(ttfdContrib.data?.get(SpanDataConvention.CONTRIBUTES_TTFD) == true)

    // and the third span should have no flags attached, as it's outside ttid/ttfd
    assertNull(outsideSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTID))
    assertNull(outsideSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTFD))
  }

  @Test
  fun `adds no ttid and ttfd contributing span data if txn contains no ttid or ttfd`() {
    val sut = fixture.getSut()

    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    val tr = SentryTransaction(tracer)

    val span =
      SentrySpan(
        0.0,
        1.0,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        "example.op",
        "",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )

    tr.spans.add(span)

    // when the processor processes the txn
    sut.process(tr, Hint())

    // the span should have no flags attached
    assertNull(span.data?.get(SpanDataConvention.CONTRIBUTES_TTID))
    assertNull(span.data?.get(SpanDataConvention.CONTRIBUTES_TTFD))
  }

  @Test
  fun `sets ttid and ttfd contributing flags according to span threads`() {
    val sut = fixture.getSut()

    val context = TransactionContext("Activity", UI_LOAD_OP)
    val tracer = SentryTracer(context, fixture.scopes)
    val tr = SentryTransaction(tracer)

    // given a ttid from 0.0 -> 1.0
    //   and a ttfd from 0.0 -> 1.0
    val ttid =
      SentrySpan(
        0.0,
        1.0,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        ActivityLifecycleIntegration.TTID_OP,
        "App Start",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )

    val ttfd =
      SentrySpan(
        0.0,
        1.0,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        ActivityLifecycleIntegration.TTFD_OP,
        "App Start",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )
    tr.spans.add(ttid)
    tr.spans.add(ttfd)

    // one span with no thread info
    val noThreadSpan =
      SentrySpan(
        0.0,
        0.5,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        "example.op",
        "",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        null,
      )

    // one span on the main thread
    val mainThreadSpan =
      SentrySpan(
        0.0,
        0.5,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        "example.op",
        "",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        mutableMapOf<String, Any>("thread.name" to "main"),
      )

    // and another one off the main thread
    val backgroundThreadSpan =
      SentrySpan(
        0.0,
        0.5,
        tr.contexts.trace!!.traceId,
        SpanId(),
        null,
        "example.op",
        "",
        SpanStatus.OK,
        null,
        emptyMap(),
        emptyMap(),
        mutableMapOf<String, Any>("thread.name" to "background"),
      )

    tr.spans.add(noThreadSpan)
    tr.spans.add(mainThreadSpan)
    tr.spans.add(backgroundThreadSpan)

    // when the processor processes the txn
    sut.process(tr, Hint())

    // then the span with no thread info + main thread span should contribute to ttid and ttfd
    assertTrue(noThreadSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTID) == true)
    assertTrue(noThreadSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTFD) == true)

    assertTrue(mainThreadSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTID) == true)
    assertTrue(mainThreadSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTFD) == true)

    // and the background thread span only contributes to ttfd
    assertNull(backgroundThreadSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTID))
    assertTrue(backgroundThreadSpan.data?.get(SpanDataConvention.CONTRIBUTES_TTFD) == true)
  }

  private fun setAppStart(options: SentryAndroidOptions, coldStart: Boolean = true) {
    AppStartMetrics.getInstance().apply {
      appStartType =
        when (coldStart) {
          true -> AppStartType.COLD
          false -> AppStartType.WARM
        }
      val timeSpan = if (options.isEnablePerformanceV2) appStartTimeSpan else sdkInitTimeSpan
      timeSpan.apply {
        setStartedAt(1)
        setStoppedAt(2)
      }
    }
  }

  private fun getTransaction(type: AppStartType): SentryTransaction {
    val op =
      when (type) {
        AppStartType.COLD -> "app.start.cold"
        AppStartType.WARM -> "app.start.warm"
        AppStartType.UNKNOWN -> "ui.load"
      }
    val txn = SentryTransaction(fixture.tracer)
    txn.contexts.setTrace(SpanContext(op, TracesSamplingDecision(false)))
    return txn
  }
}
